SE502394C2 - Dialysis probe combination as well as microdialysis probe and cannula for the combination - Google Patents

Abstract

PCT No. PCT/SE95/00096 Sec. 371 Date Jul. 31, 1996 Sec. 102(e) Date Jul. 31, 1996 PCT Filed Feb. 1, 1995 PCT Pub. No. WO95/20991 PCT Pub. Date Aug. 10, 1995A dialysis probe combination with a microdialysis probe (1) which can be inserted into tissue with the aid of an insertion device that includes a canula tube (9). In order to be able to remove the canula tube (9) after insertion, the tube is provided with a slot along the whole of its length, this slot preferably including an angle of about 65 DEG in the radial direction. During insertion, the probe is held within the canula tube by virtue of the major part of the probe being larger than the slot. However, the proximal portion of the probe includes a flattened part which is able to pass through the slot, and the canula tube can be drawn past the flattened part by lifting this part, while leaving the probe in the tissue.

Description

502 394 which coupling part is necessarily thicker than the inner diameter of the cannula tube. In both cases, the catheter must therefore be lengthened without increasing its diameter, which increases its dead volume.

It is known to insert a plastic tube, threaded onto a stiffening metal cannula with a cutting tip, which is then withdrawn. A catheter can then be inserted into the tube, after which the tube, which can be easily torn along two generatrixes, can be withdrawn and pulled apart in the weakened areas in order to be eliminated.

In the above-mentioned known device, which has proven to be useful for applying microdialysis probes, it is a rather cumbersome operation, requiring two hands for the manipulation and splitting of the cannula or tube and an additional hand to prevent the microdialysis probe from following when the cannula is withdrawn. The problems with insertion have therefore held back the use of the microdialysis method for clinical and outpatient examinations. It is an object of the invention to provide a microdialysis combination which eliminates these difficulties, and which preferably even makes it possible for a patient or relative to insert a microdialysis probe, something which has hitherto been completely unthinkable.

These and other objects and advantages are achieved according to the invention by a dialysis probe combination according to the above, which has the features specified in the characterizing part of patent claim 1. According to the invention, a dialysis probe and a cannula tube are used, which by their special design make the invention possible, and which are specified in the characterizing part of patent claims 3 and 5 below, respectively.

When applying the invention, a special cannula with a probe inserted therein is inserted, possibly after having made a preparatory piercing of the skin itself, to the place where the probe is to be placed. During this insertion, the probe lies in the cannula, of which at least its distal part and parts of its proximal part are sufficiently coarse to be unable to come out via the longitudinal slit of the cannula. When the cannula is then to be removed, the probe is pulled out of the slit of the cannula at the proximal end of the cannula, where the probe is so narrowed or flattened that it can emerge through the slit. This narrowed part is held firmly next to the skin surface, after which the cannula can be easily pulled out past the narrowed part. Especially if both the cannula and the probe are provided with suitable grips, these can then be taken in each hand, so that the extraction can be done by a single person. A reasonably handy person can even perform this on themselves all alone, at least if the location is accessible to the patient. The invention thus provides an increased opportunity for clinical and outpatient use of this examination method, which is very promising for examining many systemic conditions, e.g. diabetes. The delivery of various substances to the body is also possible.

The invention will now be described in more detail based on a non-limiting embodiment, in connection with the figures. Fig. 1 A shows a microdialysis probe. Fig. 1 B shows a section B-B according to Fig. 1 A through a microdialysis probe. Fig. 2 shows a side view of an insertion device. Fig. 3 shows a section through the cannula tube of the insertion device in Fig. 2 according to arrows III-III. Fig. 4 shows a top view of the insertion device in Fig. 2.

Fig. 5 schematically shows an introducer with an inserted microdialysis probe.

The microdialysis probe 1 in Fig. 1 A has between an end portion 2 and an intermediate portion 4 a sheath portion 3, which is semipermeable, at least at a part of its surface. Inside, as can be seen from Fig. 1 B, there is a thin inner tube 5', so that between the inner tube 5' and the sheath portion 3 an annular space is formed in cross section. The inner tube has an opening near the end portion 2 (not shown). The inner tube and the annular space are each connected to a line 5, 6, which can be connected to respectively. a source of dialysis fluid and a sample receiver. Since this does not form part of the invention, these details will not be described further.

Fig. 2 - 4 show an insertion device for the microdialysis probe in Fig. 1. This includes a cannula tube 9 with a tip 11. The cannula tube 9 is attached to a handle device 12, 13, in this case made of 10 15 20 25 30 35 502 394 4 plastic. The special feature of the cannula tube 9 is that it has a slot 10 along its entire length, best shown in the cross-section in Fig. 3.

The slot must occupy less than 180° for retention, and it is preferred to occupy about 65".

The inner diameter of the cannula tube 9 and the dimension of the slot 10 are adapted so that the main part of the insertable portion of the microdialysis probe 1 fits slidably inside the cannula tube, while the slot 10 is too narrow to allow its removal in a radial direction. Thus, at least the end portion 2 of the probe and the intermediate portion 4 should be thicker than the slot 10, with one exception that enables the function of the invention: At F, the plastic tube 4 is flattened from the side, so that its essentially elliptical shape has a minor axis that is slightly smaller than the width of the slot. This means that if, after the cannula has been inserted into tissue with the microdialysis probe inserted, the probe is bent at F, then at F the outer end of the probe will end up outside the intended extension outwards of the hole of the cannula tube 9. If the cannula is then pulled out of the tissue, it will be possible to pull it past the stationary flattening F, leaving the microdialysis probe behind after the cannula has been completely pulled out.

The aforementioned operation is facilitated by the various handle parts shown in the figures: The microdialysis probe has a flat wing 8, which is suitably held in place to prevent the microdialysis probe 1 from being pulled out simultaneously with the cannula. The cannula handle part consists of two upright portions 12, forming a slot in the extension of the cannula tube slot 10, and in which the wing 8 fits, as best shown in Fig. 5. Finger grip wings 13 are attached to the upright portions. This means that the cannula tube can be pulled out with two fingers of one hand hooked around the finger grip wings 13, while the other hand holds the wing 8 attached to the microdialysis probe 1, to prevent the microdialysis probe from being pulled out simultaneously. After the cannula tube has been pulled out and removed, the wing 8 can conveniently be folded down against the skin and secured thereto with a plaster, enabling some resistance to pulling and bending in the connecting leads 5 and 6. 10 15 502 594 5 A cannula tube of this type, with slot 10, can conveniently be manufactured by drawing a rolled strip of stainless steel around a mandrel through a suitably designed wire-drawing type drawing disc.

In many cases, the cannula tube shown may be sufficient to insert a cannula through the skin. In other cases, when the skin is very tough, it is advisable to first pierce the skin with a lancet-like tip, such that the hole through the skin does not elastically clamp onto the cannula tube and make it difficult to insert the probe-equipped cannula.

The invention makes inserting a microdialysis probe considerably easier, as only two hands are needed instead of three, and a patient with normal fine motor skills should often even be able to insert it on themselves.

IN

Claims (6)

10 15 20 25 30 35 502 394 Patent claims A dialysis probe combination with a microdialysis probe (1), comprising a semipermeable membrane (3), framed and supported between two pipe pieces (2, 4), with an inner tube opening at its distal end and a membrane comprising outer sheath, wherein the inner tube and the space formed between the inner tube and the outer jacket are connected at the proximal end of the dialysis probe to their respective connecting tube (4.5), and an insertion device with a dialysis probe stiffening, removable, at its distal end pointed cannula tube, characterized in that the cannula tube (9) in a manner known per se along its entire length has a longitudinal slot (10) and at its proximal end one in the middle of the slot this exposing gripping element (12, 13), which gripping element is additionally provided with at least one preferably laterally projecting handle means, that the outer jacket (3) and the said two pipe pieces (2, 4) are slidably received within the cannula tube (9) and therein at least the latter are substantially laterally geno m closure retained within the cannula tube, and the proximal tube piece (4) has a portion (F) tapered at least from the sides, which fits in the slot, whereby the cannula with inserted microdialysis probe can be inserted through skin and into tissue, and the tapered portion ( F) of the probe after insertion, outside the skin, is extendable from the slit of the cannula tube at its proximal end, after which the entire cannula tube is extendable during the pulling of the slit (10) past the stationary tapered portion (F) of the dialysis probe; Dialysis probe combination according to Claim 1, characterized in that a gripping element (8) which can be arranged in the middle of the cannula tube (10) is fastened to the proximal tube piece (4) for bringing the tapered portion (F) into the slit and for holding the probe under the cannula tube. bypass and extension. Microdialysis probe, comprising a semipermeable membrane (3) between two pipe pieces (2, 4), with an inner tube (5 ') opening at its distal end and a membrane comprising outer sheath , the inner tube and the space formed between the inner tube and the outer jacket being connected at the proximal end of the dialysis probe to their respective connecting tube (4.5), characterized in that a portion (F) tapered at least from the sides is arranged near the proximal end of the dialysis probe. Microdiasic probe according to Claim 3, characterized in that a unidirectional, flat handle (8) is fixed proximally in relation to the flattening (F) with the plane of the flattening substantially. Oh An insert for inserting a tubular microdialysis probe into tissue, comprising a cannula tube (9) provided with a tip (II) at its distal end, which is removable by a longitudinal device extending along the length of the cannula tube, comprising an entire axial slot (10) comprising the length of the cannula tube (9), characterized in that the slit occupies a radial angle below 180 'and preferably occupies approximately 65' and in that a handle device (12, 13) is attached to the proximal end of the cannula tube (9). ), which leaves free a zone in the radial extension of the axial slot, which is wider than the slot. Insertion device according to Claim 5, characterized in that the handle arrangement comprises two parallel walls (12) separated by a gap, provided with finger-grip wings (13) projecting in each opposite, perpendicular direction.